2 Hot Lead A 2.0g lead bullet moving at a speed of 200 m/s becomes embedded in the 2.0 kg wooden block. Assume that all of the kinetic energy “lost" in this inelastic collision is heat that goes into raising the bullet's temperature. Calculate the rise in the temperature of the bullet. Will the bullet melt? Will the wood catch on fire?

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2 Hot Lead
A 2.0g lead bullet moving at a speed of 200 m/s becomes embedded in the 2.0 kg wooden block. Assume that all of the
kinetic energy “lost" in this inelastic collision is heat that goes into raising the bullet's temperature.
Calculate the rise in the temperature of the bullet. Will the bullet melt? Will the wood catch on fire?
Transcribed Image Text:2 Hot Lead A 2.0g lead bullet moving at a speed of 200 m/s becomes embedded in the 2.0 kg wooden block. Assume that all of the kinetic energy “lost" in this inelastic collision is heat that goes into raising the bullet's temperature. Calculate the rise in the temperature of the bullet. Will the bullet melt? Will the wood catch on fire?
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